DICOM datasets for reproducible neuroimaging research across manufacturers and software versions

Christopher Rorden; Benoît Béranger; Hu Cheng; Matthew Clemence; Clément Debacker; Brice Fernandez; Yaroslav O. Halchenko; Michael P. Harms; Bharath Holla; Isaiah Innis; Joost P.A. Kuijer; Daniel Levitas; Krisanne Litinas; Jeffrey Luci; Roger Newman-Norlund; Scott Peltier; Wolfgang Rehwald; Robert I. Reid; Baxter Rogers; Christopher G. Schwarz; Jaemin Shin; Venkatasubramanian Ganesan; Sandeep Ganji; Paul S. Morgan

doi:10.1038/s41597-025-05503-w

DICOM datasets for reproducible neuroimaging research across manufacturers and software versions

Christopher Rorden
, Benoît Béranger
, Hu Cheng
, Matthew Clemence
, Clément Debacker
, Brice Fernandez
, Yaroslav O. Halchenko
, Michael P. Harms
, Bharath Holla
, Isaiah Innis
, Joost P.A. Kuijer
, Daniel Levitas
, Krisanne Litinas
, Jeffrey Luci
, Roger Newman-Norlund
, Scott Peltier
, Wolfgang Rehwald
, Robert I. Reid
, Baxter Rogers
, Christopher G. Schwarz

Jaemin Shin, Venkatasubramanian Ganesan, Sandeep Ganji, Paul S. Morgan

Research output: Contribution to journal › Article › peer-review

Abstract

DICOM is an industry-standard for medical imaging data targeted at interoperability across systems. This enables transfer, storage and processing of imaging data regardless of the manufacturer. Pragmatically, manufacturers often store detailed acquisition parameters in private rather than public DICOM tags. In parallel, the DICOM standard itself has gradually evolved by introducing new public tags and properties to better capture emerging imaging technologies. Accurately extracting these details is essential for reproducible neuroimaging research. To address this need, we created a series of DICOM datasets illustrating how various manufacturers encode acquisition details that are critical for modern processing and analysis. These minimal test cases, covering CT and MR modalities, highlight manufacturer-specific conventions, including the use of public tags, private tags, and proprietary data structures. For each DICOM dataset, we provide corresponding NIfTI-formatted images with metadata JSON files following the BIDS standard, using consistent terminology to mitigate variations in how manufacturers encode acquisition details. Our repository provides validation datasets for any tool that is intended to extract acquisition details from medical imaging data.

Original language	English
Article number	1168
Journal	Scientific data
Volume	12
Issue number	1
DOIs	https://doi.org/10.1038/s41597-025-05503-w
State	Published - Dec 2025

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Rorden, C., Béranger, B., Cheng, H., Clemence, M., Debacker, C., Fernandez, B., Halchenko, Y. O., Harms, M. P., Holla, B., Innis, I., Kuijer, J. P. A., Levitas, D., Litinas, K., Luci, J., Newman-Norlund, R., Peltier, S., Rehwald, W., Reid, R. I., Rogers, B., ... Morgan, P. S. (2025). DICOM datasets for reproducible neuroimaging research across manufacturers and software versions. Scientific data, 12(1), Article 1168. https://doi.org/10.1038/s41597-025-05503-w

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title = "DICOM datasets for reproducible neuroimaging research across manufacturers and software versions",

abstract = "DICOM is an industry-standard for medical imaging data targeted at interoperability across systems. This enables transfer, storage and processing of imaging data regardless of the manufacturer. Pragmatically, manufacturers often store detailed acquisition parameters in private rather than public DICOM tags. In parallel, the DICOM standard itself has gradually evolved by introducing new public tags and properties to better capture emerging imaging technologies. Accurately extracting these details is essential for reproducible neuroimaging research. To address this need, we created a series of DICOM datasets illustrating how various manufacturers encode acquisition details that are critical for modern processing and analysis. These minimal test cases, covering CT and MR modalities, highlight manufacturer-specific conventions, including the use of public tags, private tags, and proprietary data structures. For each DICOM dataset, we provide corresponding NIfTI-formatted images with metadata JSON files following the BIDS standard, using consistent terminology to mitigate variations in how manufacturers encode acquisition details. Our repository provides validation datasets for any tool that is intended to extract acquisition details from medical imaging data.",

author = "Christopher Rorden and Beno{\^i}t B{\'e}ranger and Hu Cheng and Matthew Clemence and Cl{\'e}ment Debacker and Brice Fernandez and Halchenko, \{Yaroslav O.\} and Harms, \{Michael P.\} and Bharath Holla and Isaiah Innis and Kuijer, \{Joost P.A.\} and Daniel Levitas and Krisanne Litinas and Jeffrey Luci and Roger Newman-Norlund and Scott Peltier and Wolfgang Rehwald and Reid, \{Robert I.\} and Baxter Rogers and Schwarz, \{Christopher G.\} and Jaemin Shin and Venkatasubramanian Ganesan and Sandeep Ganji and Morgan, \{Paul S.\}",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025.",

year = "2025",

month = dec,

doi = "10.1038/s41597-025-05503-w",

language = "English",

volume = "12",

journal = "Scientific data",

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Rorden, C, Béranger, B, Cheng, H, Clemence, M, Debacker, C, Fernandez, B, Halchenko, YO, Harms, MP, Holla, B, Innis, I, Kuijer, JPA, Levitas, D, Litinas, K, Luci, J, Newman-Norlund, R, Peltier, S, Rehwald, W, Reid, RI, Rogers, B, Schwarz, CG, Shin, J, Ganesan, V, Ganji, S & Morgan, PS 2025, 'DICOM datasets for reproducible neuroimaging research across manufacturers and software versions', Scientific data, vol. 12, no. 1, 1168. https://doi.org/10.1038/s41597-025-05503-w

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T1 - DICOM datasets for reproducible neuroimaging research across manufacturers and software versions

AU - Rorden, Christopher

AU - Béranger, Benoît

AU - Cheng, Hu

AU - Clemence, Matthew

AU - Debacker, Clément

AU - Fernandez, Brice

AU - Halchenko, Yaroslav O.

AU - Harms, Michael P.

AU - Holla, Bharath

AU - Innis, Isaiah

AU - Kuijer, Joost P.A.

AU - Levitas, Daniel

AU - Litinas, Krisanne

AU - Luci, Jeffrey

AU - Newman-Norlund, Roger

AU - Peltier, Scott

AU - Rehwald, Wolfgang

AU - Reid, Robert I.

AU - Rogers, Baxter

AU - Schwarz, Christopher G.

AU - Shin, Jaemin

AU - Ganesan, Venkatasubramanian

AU - Ganji, Sandeep

AU - Morgan, Paul S.

PY - 2025/12

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N2 - DICOM is an industry-standard for medical imaging data targeted at interoperability across systems. This enables transfer, storage and processing of imaging data regardless of the manufacturer. Pragmatically, manufacturers often store detailed acquisition parameters in private rather than public DICOM tags. In parallel, the DICOM standard itself has gradually evolved by introducing new public tags and properties to better capture emerging imaging technologies. Accurately extracting these details is essential for reproducible neuroimaging research. To address this need, we created a series of DICOM datasets illustrating how various manufacturers encode acquisition details that are critical for modern processing and analysis. These minimal test cases, covering CT and MR modalities, highlight manufacturer-specific conventions, including the use of public tags, private tags, and proprietary data structures. For each DICOM dataset, we provide corresponding NIfTI-formatted images with metadata JSON files following the BIDS standard, using consistent terminology to mitigate variations in how manufacturers encode acquisition details. Our repository provides validation datasets for any tool that is intended to extract acquisition details from medical imaging data.

AB - DICOM is an industry-standard for medical imaging data targeted at interoperability across systems. This enables transfer, storage and processing of imaging data regardless of the manufacturer. Pragmatically, manufacturers often store detailed acquisition parameters in private rather than public DICOM tags. In parallel, the DICOM standard itself has gradually evolved by introducing new public tags and properties to better capture emerging imaging technologies. Accurately extracting these details is essential for reproducible neuroimaging research. To address this need, we created a series of DICOM datasets illustrating how various manufacturers encode acquisition details that are critical for modern processing and analysis. These minimal test cases, covering CT and MR modalities, highlight manufacturer-specific conventions, including the use of public tags, private tags, and proprietary data structures. For each DICOM dataset, we provide corresponding NIfTI-formatted images with metadata JSON files following the BIDS standard, using consistent terminology to mitigate variations in how manufacturers encode acquisition details. Our repository provides validation datasets for any tool that is intended to extract acquisition details from medical imaging data.

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SN - 2052-4463

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JO - Scientific data

JF - Scientific data

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ER -

DICOM datasets for reproducible neuroimaging research across manufacturers and software versions

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